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Strengthening of 3D printed Cu micropillar in Cu-Ni core-shell structure

Manish Jain, Amit Sharma, Patrik Schürch, Nicolò Maria della Ventura, Wabe W. Koelmans, Xavier Maeder, Jakob Schwiedrzik, Johann Michler

2023Materials & Design14 citationsDOIOpen Access PDF

Abstract

Direct printing of complex 3D structures at the nano- and microscale is a promising technique for MEMS devices, small-scale sensors, and actuators. So far, most studies have been focused on printing copper (Cu) structures due to the high Coulombic efficiency compared to other conductive metals such as platinum. However, Cu suffers from low material strength, low modulus, and high strain-rate sensitivity. This work introduces a unique Cu-Ni core–shell structure for improved strength. A 3D additive-micromanufacturing technique based on localized electrodeposition was utilized to fabricate dog-bone-shaped Cu micropillars with submicron resolution. These pillars were subsequently coated with Ni by pulse-reverse electrodeposition. A combination of in-situ micropillar compression at various strain rates (0.001–500 s−1) and finite element simulations revealed remarkable strengthening in the Ni-coated Cu micropillar. Data obtained from both experiments and simulations were in good agreement, suggesting the strengthening was dominated by interface characteristics, stress redistribution, and geometrical effects. Furthermore, the study demonstrates that shape and dimension of the 3D-printed objects can be retained while increasing their strength drastically. These findings can be extended to other material systems and provide a pathway to develop strong and tough composites and metamaterials at multiple length scales for future applications.

Topics & Concepts

Materials scienceMicroscale chemistryComposite materialMicroelectromechanical systems3D printingModulusNanoscopic scaleFinite element methodNanotechnologyStructural engineeringMathematics educationMathematicsEngineeringAdditive Manufacturing and 3D Printing TechnologiesAdditive Manufacturing Materials and ProcessesCellular and Composite Structures
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